论文信息 - A Proposed Framework for Interactive Virtual Reality In Situ Visualization of Parallel Numerical Simulations

A Proposed Framework for Interactive Virtual Reality In Situ Visualization of Parallel Numerical Simulations

As computer simulations progress to increasingly complex, non-linear, and three-dimensional systems and phenomena, intuitive and immediate visualization of their results is becoming crucial. While Virtual Reality (VR) and Natural User Interfaces (NUIs) have been shown to improve understanding of complex 3D data, their application to live in situ visualization and computational steering is hampered by performance requirements. Here, we present the design of a software framework for interactive VR in situ visualization of parallel numerical simulations, as well as a working prototype implementation. Our design is targeted towards meeting the performance requirements for VR, and our work is packaged in a framework that allows for easy instrumentation of simulations. Our preliminary results inform about the technical feasibility of the architecture, as well as the challenges that remain.

[1] Mel Slater,et al. Enhancing Our Lives with Immersive Virtual Reality , 2016, Front. Robot. AI.

[2] Kwan-Liu Ma,et al. Parallel volume rendering using binary-swap compositing , 1994, IEEE Computer Graphics and Applications.

[3] Jeremy S. Meredith,et al. Parallel in situ coupling of simulation with a fully featured visualization system , 2011, EGPGV '11.

[4] Thomas Ertl,et al. Explorable Volumetric Depth Images from Raycasting , 2013, 2013 XXVI Conference on Graphics, Patterns and Images.

[5] Ivo F. Sbalzarini,et al. OpenFPM: A scalable open framework for particle and particle-mesh codes on parallel computers , 2018, Comput. Phys. Commun..

[6] Ivo F. Sbalzarini,et al. scenery: Flexible Virtual Reality Visualization on the Java VM , 2019, 2019 IEEE Visualization Conference (VIS).

[7] Robert Sisneros,et al. Coupling the Uintah Framework and the VisIt Toolkit for Parallel In Situ Data Analysis and Visualization and Computational Steering , 2018, ISC Workshops.

[8] Utkarsh Ayachit,et al. ParaView Catalyst: Enabling In Situ Data Analysis and Visualization , 2015, ISAV@SC.

[9] Frederick P. Brooks,et al. Project GROPEHaptic displays for scientific visualization , 1990, SIGGRAPH.